干纺丝聚合物纳米/超细纤维阵列使用玻璃微移液管控制孔隙率和纤维直径

A. Nain, A. Gupta, C. Amon, M. Sitti
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引用次数: 0

摘要

提出了一种干法纺丝聚合物纳米/超细纤维阵列的方法。在该技术中,聚合物溶液从固定的玻璃微移液管中连续喷射,纤维以平行和复杂的几何构型沉积在安装在平移台上的旋转基板上。当聚合物溶液从玻璃微移液管中流出时,周围的空气被用来蒸发溶剂,从而使纤维凝固,然后沉积在旋转基板上。对于给定的聚合物,改变工艺和材料参数可以沉积具有高度可调孔隙率和均匀纤维直径的纤维阵列。在一定的平移级速度下,光纤阵列孔隙率随旋转基板角速度的增加而减小。纤维阵列断裂强度实验表明,断裂低孔隙率阵列需要更高的载荷,这对设计更强的材料至关重要。此外,将该技术制备的单层和双层生物支架植入小鼠C2C12细胞,研究细胞的粘附、迁移和增殖动力学。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Dry spinning polymeric nano/microfiber arrays using glass micropipettes with controlled porosities and fiber diameters
We present a method for dry spinning polymeric nano/microfiber arrays. In this technique polymer solution is continuously ejected from a stationary glass micropipette and the fibers are deposited as continuous arrays in parallel and complex geometrical configurations on a rotating substrate mounted on to a translation stage. As the polymer solution exits the glass micropipette, ambient air is used to evaporate the solvent, thus solidifying the fiber which is then deposited on the rotating substrate. For a given polymer, altering the processing and material parameters allows depositing fiber arrays with highly tunable porosities and uniform fiber diameters. The fiber array porosity is observed to decrease with increasing angular velocity of the rotating substrate at a constant translational stage velocity. Fiber array breaking strength experiments as a function of porosity show higher loads required to break low porosity arrays, which is critical in designing stronger materials. Additionally, single and double layered biological scaffolds fabricated using this technique are seeded with mouse C2C12 cells and cellular dynamics of adhesion, migration and proliferation is investigated.
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